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권호기사 목록 테이블로 기사명, 저자명, 페이지, 원문, 기사목차 순으로 되어있습니다.
기사명 저자명 페이지 원문 목차
(A) review on bauxite residue usage in air pollution control Samridhi Dwivedi, Farheen Zehra, Neha Shukla, B.S. Rajanikanth, Alfred J. Lawrence p. 1-12
Estimation of particle size distributions in the atmosphere : analysis of Fe and Ca particles as the representative examples Hyunwoo Youn, Kenji Miki, Ayumi Iwata, Tomoaki Okuda p. 1-12
Sensitivity analysis of volatile organic compounds to PM2.5 concentrations in a representative industrial city of Korea ByeongKyu Lee, SungDeuk Choi, Byeorie Shin, SeongJoon Kim, SangJin Lee, DaiGon Kim, Greem Lee, HyunJung Kang, HyoSeon Kim, DaeYoung Park p. 1-12
Temporal variability of precipitation isotopes in Damascus, Syria : implications for regional climate change Zuhair Kattan, Saeid Nasser p. 4-4
Comparison of machine learning and deep learning techniques for the prediction of air pollution : a case study from China Ishan Ayus, Narayanan Natarajan, Deepak Gupta p. 5-5
Seasonal and regional variations of atmospheric ammonia across the South Korean Peninsula Taehyun Park, Rahul Singh, Jihee Ban, Kyunghoon Kim, Gyutae Park, Seokwon Kang, Siyoung Choi, Jeongin Song, DongGil Yu, MinSuk Bae … [et al.] p. 1-11
Measurement of benzene and other volatile organic compounds : implications for its inhalation health risk associated with the workers at a fuel station in Delhi Poonam Kumari, Gazal Garg, Daya Soni, Shankar G. Aggarwal p. 1-11
Photonitration of pyrene adsorbed on silicagel with NO2 Kiyoshi Hasegawa, Reona Mabuchi, Shigehiro Kagaya p. 1-12
Correlation between air temperature and surface ozone in their extreme ranges in the greater Tokyo region Hiroshi Yoshikado p. 1-11
Determination of BVOCs based on high time-resolved measurements in urban and forest areas in Japan Yujiro Ichikawa, Kiyoshi Nojiri, Kouki Sasaka p. 1-18
Relationship between human behavior and indoor air quality of private room in a care facility for the elderly in Japan Nobuyuki Tanaka, Tatsuji Munaka, Joao Filipe Papel, Shunichi Hattori, Toshiya Iwamatsu, Teruhisa Miura, Fujio Tsutsumi p. 1-15
Long‑term historical trends in air pollutant emissions in South Korea (2000–2018) Jinseok Kim, Junhee Park, Hyejung Hu, Monica Crippa, Diego Guizzardi, Satoru Chatani, Junichi Kurokawa, Tazuko Morikawa, Soyoung Yeo, Hyungah Jin, Jung-Hun Woo p. 1-13
Soil greenhouse gas fluxes to the atmosphere during the wet season across mangrove zones in Benoa Bay, Indonesia I Putu Sugiana, Elok Faiqoh, Maria Fernanda Adame, Gede Surya Indrawan, Anak Agung Eka Andiani, I Gusti Ayu Istri Pradnyandari Dewi, I Wayan Eka Dharmawan p. 1-12
Characteristics of STILT footprints driven by KIM model simulated meteorological fields : implication for developing near real-time footprints Samuel Takele Kenea, Haeyoung Lee, Sangwon Joo, Miloslav Belorid, Shanlan Li, Lev D. Labzovskii, Sanghun Park p. 1-14
(A) case study evaluating the performance of a cost-effective optical particle counter coupled with a humidity compensation approach for ambient air monitoring of particulate matter Trieu-Vuong Dinh, Byeong-Gyu Park, Sang-Woo Lee, Jae-Hyung Park, Da-Hyun Baek, In-Young Choi, Ye-Bin Seo, Jin-Woo Choi, Jo-Chun Kim p. 1-14
Factors influencing the emissions of aldehydes from plant species of the Korean peninsula So‑Young Kim p. 1-13
Combined effects of elevated air temperature and CO2 on growth, yield, and yield components of japonica rice (Oryza sativa L.) Masahiro Yamaguchi, Nobuyuki Tazoe, Tomoki Nakayama, Tetsushi Yonekura, Takeshi Izuta, Yoshihisa Kohno p. 1-11
Physicochemical characteristics and seasonal variations of PM2.5 in urban, industrial, and suburban areas in South Korea Kyucheol Hwang, Jeongho Kim, Jae Young Lee, Jong-Sung Park, Sechan Park, Gahye Lee, Chang Hyeok Kim, Pilho Kim, Su Hyun Shin, Kwang Yul Lee, Joon-Young An, Jungmin Park, Jong Bum Kim p. 1-14
Update of the year 2019 modeling emission inventory in China Seoyeon Kim, Jinseok Kim, Hyejung Hu, Meongdo Jang, Jae-Bum Lee, Sung Chul Hong, Okgil Kim, Jung-Hun Woo p. 1-14
Long‑term changes of rice yield loss estimated with AOT40 and M7 metrics using comprehensive ozone and rice cultivation data over South Korea Jimin Lee, Jin-seok Han, Jinsu Park, Joon-Yeong Ahn, Gangwoong Lee p. 1-9
CO2 removal characteristics of a novel type of moss and its potential for urban green roof applications Ye-Bin Seo, Trieu-Vuong Dinh, Seungjae Kim, Da-Hyun Baek, Kweon Jung, Jo-Chun Kim p. 1-10

참고문헌 (33건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Apte, J. S., Marshall, J. D., Cohen, A. J., & Brauer, M. (2015). Addressing global mortality from ambient PM2.5. Environmental Science & Technology, 49, 8057–8066. 미소장
2 Bari, M. A., & Kindzierski, W. B. (2017). Concentrations, sources and human health risk of inhalation exposure to air toxics in Edmonton, Canada. Chemosphere, 173, 160–171. 미소장
3 Brown, J. S., Gordon, T., Price, O., & Asgharian, B. (2013). Thoracic and respirable particle definitions for human health risk assessment. Particle and Fibre Toxicology, 10, 12. 미소장
4 Delfino, R. J. (2002). Epidemiologic evidence for asthma and exposure to air toxics: Linkages between occupational, indoor, and community air pollution research. Environmental Health Perspectives, 110, 573–589. 미소장
5 EEA. (2014). Premature deaths attributable to PM2.5, NO2 and O3 exposure in 41 European countries and the EU-28, 2014. European Environment Agency, pp. 1–5. https:// www. eea. europa. eu/ highl ights/ impro ving-​air-​quali ty-​in-​europ ean/ prema ture-​deaths-​2014. 미소장
6 EEA. (2017). Air quality in Europe — 2017 report. European Environment Agency, pp. 57–58. https:// doi. org/ 10. 2800/ 850018. 미소장
7 Goodkind, A. L., Tessum, C. W., Coggins, J. S., Hill, J. D., & Marshall, J. D. (2019). Fine-scale damage estimates of particulate matter air pollution reveal opportunities for location-specific mitigation of emissions. Proceedings of the National Academy of Sciences, 116, 8775–8780. 미소장
8 Han, D., Gao, S., Fu, Q., Cheng, J., Chen, X., Xu, H., Liang, S., Zhou, Y., & Ma, Y. (2018). Do volatile organic compounds (VOCs) emitted from petrochemical industries affect regional PM2.5? Atmospheric Research, 209, 123–130. 미소장
9 Han, D., Wang, Z., Cheng, J., Wang, Q., Chen, X., & Wang, H. (2017). Volatile organic compounds (VOCs) during non-haze and haze days in Shanghai: Characterization and secondary organic aerosol (SOA) formation. Environmental Science and Pollution Research, 24, 18619–18629. 미소장
10 Heo, J., Adams, P. J., & Gao, H. O. (2016). Public health costs of primary PM2.5 and inorganic PM2.5 precursor emissions in the United States. Environmental Science & Technology, 50, 6061–6070. 미소장
11 Kim, S.-J., Kwon, H.-O., Lee, M.-I., Seo, Y., & Choi, S.-D. (2019). Spatial and temporal variations of volatile organic compounds using passive air samplers in the multi-industrial city of Ulsan, Korea. Environmental Science and Pollution Research, 26, 5831–5841. 미소장
12 Kim, S.-J., Lee, S.-J., Lee, H.-Y., Son, J.-M., Lim, H.-B., Kim, H.-W., Shin, H.-J., Lee, J. Y., & Choi, S.-D. (2022). Characteristics of volatile organic compounds in the metropolitan city of Seoul, South Korea: Diurnal variation, source identification, secondary formation of organic aerosol, and health risk. Science of the Total Environment, 838, 156344. 미소장
13 Kim, Y. P., & Lee, G. (2018). Trend of air quality in Seoul: Policy and science. Aerosol and Air Quality Research, 18, 2141–2156. 미소장
14 Lee, S.-J., Lee, H.-Y., Kim, S.-J., Kang, H.-J., Kim, H., Seo, Y.-K., Shin, H.-J., Ghim, Y. S., Song, C.-K., & Choi, S.-D. (2023). Pollution characteristics of PM2.5 during high concentration periods in summer and winter in Ulsan, the largest industrial city in South Korea. Atmospheric Environment, 292, 119418. 미소장
15 Lelieveld, J., Evans, J. S., Fnais, M., Giannadaki, D., & Pozzer, A. (2015). The contribution of outdoor air pollution sources to premature mortality on a global scale. Nature, 525, 367–371. 미소장
16 Luo, Y., Zhou, X., Zhang, J., Xiao, Y., Wang, Z., Zhou, Y., & Wang, W. (2018). PM2.5 pollution in a petrochemical industry city of northern China: Seasonal variation and source apportionment. Atmospheric Research, 212, 285–295. 미소장
17 Nguyen, T. N. T., Jung, K.-S., Son, J. M., Kwon, H.-O., & Choi, S.-D. (2018). Seasonal variation, phase distribution, and source identification of atmospheric polycyclic aromatic hydrocarbons at a semi-rural site in Ulsan, South Korea. Environmental Pollution, 236, 529–539. 미소장
18 NICS. (2022). Pollutant release and transfer register (PRTR). National Institute of Chemical Safety, https:// icis. me. go. kr/ prtr/ main. do. 미소장
19 NIER. (2022). 2019 National air pollutants emission. National Institute of Environmental Research, pp. 123–143. https:// www. air. go. kr/ main. do. 미소장
20 NIOSH. (1998). NIOSH manual of analytical methods (NMAM), fourth edition: Particulates not otherwise regulated, respirable. National Institute for Occupational Safety & Health, pp. 2–6. NIOSH Manual of Analytical Methods (NMAM), Department of Health and Human Services, Cincinnati 미소장
21 Park, S.-S., Jung, S.-A., Gong, B.-J., Cho, S.-Y., & Lee, S.-J. (2013). Characteristics of PM2.5 haze episodes revealed by highly time-resolved measurements at an air pollution monitoring supersite in Korea. Aerosol and Air Quality Research, 13, 957–976. 미소장
22 Park, Y.-M., Park, K.-S., Kim, H., Yu, S.-M., Noh, S., Kim, M.-S., Kim, J.-Y., Ahn, J.-Y., Lee, M.-D., Seok, K.-S., & Kim, Y.-H. (2018). Characterizing isotopic compositions of TC-C, NO3−-N, and NH4+-N in PM2.5 in South Korea: Impact of China’s winter heating. Environmental Pollution, 233, 735–744. 미소장
23 Phillips, H., & Oh, J. (2020). Evaluation of aldehydes, polycyclic aromatic hydrocarbons, and PM2.5 levels in food trucks: A pilot study. Workplace Health & Safety, 68, 443–451. 미소장
24 Querol, X., Alastuey, A., Rodriguez, S., Plana, F., Ruiz, C. R., Cots, N., Massagué, G., & Puig, O. (2001). PM10 and PM2.5 source apportionment in the Barcelona Metropolitan Area, Catalonia. Spain. Atmospheric Environment, 35, 6407–6419. 미소장
25 Saini, P., & Sharma, M. (2020). Cause and age-specific premature mortality attributable to PM2.5 exposure: An analysis for million-plus Indian cities. Science of the Total Environment, 710, 135230. 미소장
26 Sun, Y., Zhuang, G., Tang, A., Wang, Y., & An, Z. (2006). Chemical characteristics of PM2.5 and PM10 in haze−fog episodes in Beijing. Environmental Science & Technology, 40, 3148–3155. 미소장
27 US EPA. (2012). Revised air quality standards for particle pollution and updates to the air quality index (AQI). United States Environmental Protection Agency, pp. 1–5. https:// www. epa. gov/ sites/ defau lt/ files/ 2016-​04/ docum ents/ 2012_ aqi_ facts heet. pdf. 미소장
28 Vallero, D. (2014). Fundamentals of air pollution. Academic press. Elsevier Inc, San Diego. 미소장
29 Vuong, Q. T., Park, M.-K., Do, T. V., Thang, P. Q., & Choi, S.-D. (2022). Driving factors to air pollutant reductions during the implementation of intensive controlling policies in 2020 in Ulsan. South Korea. Environmental Pollution, 292, 118380. 미소장
30 WHO. (2018). WHO issues latest global air quality report: Some progress, but more attention needed to avoid dangerously high levels of air pollution. World Health Organization, https:// www. who. int/ china/ news/ detail/ 02-​05-​2018-​who-​issues-​latest-​global-​air-​quali ty-​report-​some-​progr ess-​butmore-​atten tion-​needed-​to-​avoid-​dange rously-​high-​levels-​of-​air-​pollu tion. 미소장
31 Yan, G., Zhang, P., Yang, J., Zhang, J., Zhu, G., Cao, Z., Fan, J., Liu, Z., & Wang, Y. (2021). Chemical characteristics and source apportionment of PM2.5 in a petrochemical city: Implications for primary and secondary carbonaceous component. Journal of Environmental Sciences, 103, 322–335. 미소장
32 Yang, G. H., Jo, Y. J., Lee, H. J., Song, C. K., & Kim, C. H. (2020). Numerical sensitivity tests of volatile organic compounds emission to PM2.5 formation during heat wave period in 2018 in two southeast Korean cities. Atmosphere, 11, 331. 미소장
33 Zhang, X., Gao, S., Fu, Q., Han, D., Chen, X., Fu, S., Huang, X., & Cheng, J. (2020). Impact of VOCs emission from iron and steel industry on regional O3 and PM2.5 pollutions. Environmental Science and Pollution Research, 27, 28853–28866. 미소장

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